Human exposure to polychlorinated alkanes (C) in soil and dust from Nigerian e-waste sites: Occurrence, homologue pattern and health risk assessment.

Electronic waste (e-waste) dismantling and dumpsite processes are recognized as significant sources of chlorinated paraffin (CP) exposure. This study aims to investigate the environmental occurrence and distribution of polychlorinated alkanes (PCAs-C), specifically in soil and outdoor dust samples collected from e-waste dumpsites and automobile dismantling and resale sites in Nigeria. The results revealed a widespread occurrence of PCAs across all sampled locations. For the PCAs homologue groups ∑PCAs-C, ∑PCAs-C, and ∑PCAs-C, the median concentrations were 1150 ng/g dry weight (dw), 1180 ng/g dw, and 370 ng/g dw in the dust samples, and 2840 ng/g dw, 1820 ng/g dw, and 830 ng/g dw in the soil samples, respectively. Notably, the homologue distribution patterns of PCAs-C were similar in both dust and soil samples. However, PCAs-C was found to be higher in the soil samples, likely due to the wet and/or dry deposition effect of the aerosols, given these chemicals' volatile nature and ease of atmospheric dispersion. Pearson correlation analysis further revealed a co-occurrence of contaminants in the soil samples, supporting the hypothesis that soil acts as a sink for persistent organic pollutants (POPs). Additionally, lower molecular weight polychlorinated biphenyls (PCBs) and organochlorine pesticides (OCPs) showed reduced correlation with the PCAs. Health risk assessments indicated that working on e-waste sites could potentially pose a risk to the workers' health. This study highlights the urgent need for mitigating occupational exposure to PCAs, especially in informal e-waste processing environments where personal protective measures are often lacking.